Shephali Trivedi scite author profile

Ion channels are challenging targets in the early phases of the drug discovery process, especially because of the lack of technologies available to screen large numbers of compounds in functionally relevant assays. The electrophysiological patch-clamp technique, which is the gold standard for studying ion channels, has low throughput and is not amenable to screening large numbers of compounds. However, for random high-throughput screening (HTS) of compounds against ion channel targets, a number of functional cellular assays have become available during the last few years. Here we use the sodium channel NaV1.7 stably expressed in human embryonic kidney 293 cells and compare three HTS assays-a Li flux atomic absorption spectroscopy (AAS) assay, a fluorescent imaging plate reader (FLIP, Molecular Devices, Sunnyvale, CA) membrane potential assay, and a fluorescence resonance energy transfer (FRET)-based membrane potential assay-to an automated electrophysiological assay (the Ionworks HT [Molecular Devices] platform) and characterize 11 known NaV inhibitors. Our results show that all three HTS assays are suitable for identification of NaV1.7 inhibitors, but as an HTS assay the Li-AAS assay is more robust with higher Z' values than the FLIPR and FRET-based membrane potential assays. Furthermore, there was a better correlation between the Ionworks assay and the Li-AAS assay regarding the potency of the NaV inhibitors investigated. This paper describes the first comparison between all the HTS assays available today to study voltage-gated NaVs, and the results suggest that the Li-AAS assay is more suited as a first HTS assay when starting an NaV drug discovery campaign.

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K-Channel Opening Activity of ZD6169 and Its Analogs: Effect on <sup>86</sup>Rb Efflux and <sup>3</sup>H-P1075 Binding in Bladder Smooth Muscle

Trivedi

Sl²,

Potter-Lee³

et al. 1995

Pharmacology

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Zeneca ZD6169, (S^,)-N--(4-benzoylphenyl)-3,3,3-trifluoro-2-hydroxy-2-methylpropionamide, is a novel compound which relaxes urinary bladder smooth muscle in vitro. The effect of ZD6169 and two of its analogs on ⁸⁶Rb efflux and ³H-P1075 binding in guinea pig bladder strips was investigated to characterize the K-channel opening properties of this compound. ZD6169 concentration dependently increased the rate of ⁸⁶Rb efflux from guinea pig bladder strips. ⁸⁶Rb efflux evoked by ZD6169 and its analogs was blocked by glibenclamide (30 µM) but not by charybdotoxin, apamin or α-dendrotoxin, suggesting that this compound activates K_Atp channels in guinea pig bladder. In addition, interaction of ZD6169 with K_Atp channels was also confirmed in human bladder smooth muscle cells. Specific binding of ³H-P1075, a potent opener of K_Atp channels, to guinea pig urinary bladder strips was observed. ³H-P1075 binding was inhibited by known K_Atp openers. ZD6169 inhibited binding of ³H-P1075 to urinary bladder strips like other structurally different K_ATp openers, e.g. cromakalim and pinacidil. Potencies for inhibition of ³H-P1075 binding by ZD6169 and other potassium channel openers correlate well with potencies for increase in ⁸⁶Rb efflux and bladder muscle relaxation studies. It is concluded that Zeneca ZD6169 is a potassium channel opener which activates ATP-sensitive K-channels in guinea pig urinary bladder strips as well as in human bladder cells. Furthermore, binding studies suggest that the effects of ZD6169 and its analogs are mediated by binding to the site labeled by ³H-P1075 in guinea pig bladder strips.

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N-Aryl-3,3,3-trifluoro-2-hydroxy-2-methylpropanamides: K_ATP Potassium Channel Openers. Modifications on the Western Region

et al. 1996

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A subset of antiandrogen compounds, the N-aryl-3,3,3-trifluoro-2-hydroxy-2-methylpropanamides 1, were found to activate ATP sensitive potassium channels (KATP) and represent a new class of potassium channel openers (PCOs). A structure-activity relationship was carried out on the western region of this series with the goal of obtaining an activator of the ATP sensitive potassium channel suitable for use in the treatment of urge urinary incontinence. In particular three large 4-(N-aryl) substituents, the (N-phenyl-N-methylamino)sulfonyl, benzoyl, and 4-pyridylsulfonyl moieties, yielded non-antiandrogen, KATP potassium channel openers (39, 41, and 64, respectively) that are bladder selective in an in vivo rat model that simultaneously measures bladder contractions, heart rate, and blood pressure. Substitutions of the aryl rings of 41 and 64 gave several derivatives that also display selectivity in the in vivo rat model; however, none appear to offer a substantial advantage over 41 and 64. The PCO activity of 41 and 64 resides in the (S)-(-) enantiomers. ZD6169, 41(S), has been selected into development for the treatment of urge urinary incontinence.

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A medium-throughput functional assay of KCNQ2 potassium channels using rubidium efflux and atomic absorption spectrometry

Scott

Wilkins

Trivedi

et al. 2003

Analytical Biochemistry

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The Use of TrkA-PathHunter Assay in High-Throughput Screening to Identify Compounds That Affect Nerve Growth Factor Signaling

et al. 2013

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The TrkA-PathHunter cell-based assay was used in high-throughput screening (HTS) to identify compounds that inhibit nerve growth factor (NGF)/TrkA signaling. The assay was conducted in a 384-well format, and typical Z' values during HTS ranged from 0.3 to 0.8. The reproducibility of IC50 values was good, and the use of cryopreserved cells was well tolerated, as judged by assay parameters such as Z' and S/B and by comparison of IC50 values obtained with cells in culture. During hit deconvolution, TrkA-kinase inhibitors were identified with ATP-competitive as well as non-ATP-competitive mechanisms of action. Furthermore, other mechanisms of action such as NGF and TrkA antagonists were also identified. Because of the different molecular mechanisms identified, it is possible that subsequent optimization work to increase affinity and selectivity might lead to compounds that could have a better chance to evoke clinical efficacy without the adverse effects observed for nonselective TrkA inhibitors.

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